In the dynamic field of agrochemical research and development, identifying and securing reliable chemical intermediates is fundamental to innovation and production. 3,5-Dibromo-1H-Pyrazole, identified by CAS number 67460-86-0, is a pivotal compound that plays a significant role in the synthesis of modern crop protection agents. As a professional manufacturer, we recognize the importance of providing high-purity materials like this brominated pyrazole derivative to support the agrochemical industry's continuous evolution. Understanding its properties and applications can greatly assist formulators and researchers.

3,5-Dibromo-1H-Pyrazole (C3H2Br2N2, MW 225.87) is primarily valued for its utility as a chemical intermediate. Its specific structure, featuring bromine atoms at the 3 and 5 positions of the pyrazole ring, makes it an excellent starting material for creating complex molecules used in pesticides, herbicides, and fungicides. The compound’s high assay, typically ≥99.5%, is critical for ensuring the efficacy and selectivity of the final agrochemical products. When looking to buy, ensuring this level of purity from your supplier is non-negotiable.

For businesses in the agrochemical sector, sourcing this essential intermediate often leads to seeking out manufacturers and suppliers that can offer competitive pricing and consistent quality. We, as a dedicated supplier, focus on maintaining a robust production process to meet the demands of the agrochemical market. This includes ensuring timely delivery and providing detailed technical specifications. For bulk requirements, requesting a quote from a reliable manufacturer is a strategic step to optimize procurement costs and secure a steady supply chain. We are positioned as a leading source for such needs.

The application of 3,5-Dibromo-1H-Pyrazole in agrochemical synthesis is multifaceted. It serves as a key building block for designing new active ingredients that target specific pests or weeds, thereby enhancing crop yields and reducing losses. Its reactivity allows for diverse derivatization, enabling the development of compounds with improved environmental profiles and target specificity. Researchers often rely on such intermediates for groundbreaking discovery and formulation optimization.

Proper handling and storage are also key considerations. 3,5-Dibromo-1H-Pyrazole should be stored in a cool, dry environment, typically in tightly sealed containers to maintain its chemical integrity. This ensures that when you need to purchase this compound for your formulation processes, it is ready for immediate use with guaranteed performance. By partnering with experienced suppliers who understand the specific requirements of the agrochemical industry, you can ensure the success of your product development and manufacturing cycles.